EC:3.2.1.20 - FACTA Search

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Query: EC:3.2.1.20 (alpha-glucosidase)
4,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activities of several enzymes in urine are masked by the presence of interfering substances in native urine. From several methods proposed for the removal of low molecular mass interferences dilution, dialysis, gel filtration, and ultrafiltration have been successfully applied. Gel filtration seems to be of these most suitable. I is effective, accurate, precise and economical. Scale-down procedures provide for acceptable speed. By this method the complete separation of lactate dehydrogenase, gamma-glutamyltransferase, alkaline phosphatase, arylsulphatase A, alpha-glucosidase, beta-galactosidase, trehalase, N-acetyl-beta-glucosaminidase, beta-glucuronidase and leucine arylamidase from low molecular mass substances, e.g. a heat-stable, competitive inhibitor of N-acetyl-beta-glucosaminidase was possible. The preparation and determination of urinary enzymes should be thoroughly standardized and controlled. Acceptable precision (coefficient of variation less than 10% between-day) can be achieved with manual spectrophotometric methods.
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PMID:Preparation of urine for enzyme determinations by gel filtration. 44 74

Sucrase-isomaltase complex and its functional subunits have been identified in homogenates of human small intestinal mucosa by use of Sephadex G-200 (superfine) chromatography aided by affinity of the isomaltase moiety for the dextran gel. The isomaltase subunit binds strongly to the gel at 4 degrees, and is eluted only after 2 column volumes; earlier recovery as a sharp peak can be achieved by raising column temperature to 37 degrees after elution of other proteins. Bio-Gel P-300 chromatography, density gradient, and equilibrium centrifugation demonstrated that the sucrase subunit (Stokes radius = 45 A, frictional ratio = 1.32, s20,w = 6.9, MW = 130,000) and the isomaltase subunit (Stokes radius = 45 A, frictional ratio = 1.30, s20,w = 6.6, MW = 120,000) are similar but unequal in size. The sucrase-isomaltase complex (Stokes radius = 70 A, frictional ratio = 1.61, s20,w = 9.8, MW = 280,000), appears to be an elongated hybrid molecule that is less symmetrical than either of itt subunits. Apparent Km and pH activity curves were indistinguishable for each enzyme whether present in the hybrid or in the free state. The sucrase-isomaltase complex, accounting for approximately 90 percent of native intestinal sucrase and isomaltase activities, was isolated and cleaved by 0.01 M beta-mercaptoethanol/6 M urea treatment into active sucrase and isomaltase subunits having biochemical characteristics identical with those of the free native moieties. Sodium dodecyl sulfate acrylamide gell electrophoresis of the complex also produced subunits having molecular weights very close to those for the active free sucrase and isomaltase moieties, indicating that each alpha-glucosidase appears to consist of a single polypeptide chain. Immunization of rabbits with pure sucrase-isomaltase complex yielded a monospecific precipitating antibody that reacted with the hybrid and the sucrase subunit, but had minimal affinity for the isomaltase subunit, providing further evidence that the sucrase-isomaltase molecule is a hybrid consisting of two distinct alpha-glucosidases.
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PMID:Human intestinal sucrase-isomaltase. Identification of free sucrase and isomaltase and cleavage of the hybrid into active distinct subunits. 80 75

The common hookworm (Ancylostoma ceylanicum) infection of humans was studied in golden hamsters model system. Significant biochemical modulations were observed in hamster jejunal brush border membrane (BBM), the primary site of infection. Analysis of BBM at the peak of infection (3-weeks) revealed a marked decrease in the activities of sucrase, lactase and maltase, while activities of alkaline phosphatase, (Ca2+ + Mg2+)-ATPase and gamma-glutamyl transpeptidase were increased. Kinetic studies conducted with maltase, a superficially localised enzyme of jejunal BBM, revealed loss of enzyme active site during the infection. Among other constituents, the levels of cholesterol and triglycerides were significantly decreased with slight increase in phospholipid content in the infected animals. The hookworm infection also caused a decline in total hexose content indicating an altered membrane glycocalyx. Conversely, there was significant enhancement of hydroxyproline and sialic acid contents. SDS-PAGE analysis showed an enhancement in both low and high molecular weight proteins in jejunal BBM preparations of the infected group. Gel electrophoresis of glycoproteins further revealed the appearance of two additional peaks in the low molecular weight region and concomitant disappearance of a peak in the high molecular weight region. These results strongly support the view that the hookworm infection causes severe damage not to the site of attachment alone but also to the entire cell lining of the jejunum and therefore could influence overall digestion and absorption.
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PMID:Biochemical analysis of jejunal brush border membrane of golden hamster: pathogenic modulations due to ancylostomiasis. 159 19

The carbohydrate structures of acid phosphatase and alpha-glucosidase secreted into culture medium by Tetrahymena pyriformis strain W were studied. Their asparagine-linked sugar chains were quantitatively liberated as radioactive oligosaccharides from their polypeptide moieties by controlled hydrazinolysis followed by N-acetylation and NaB3H4 reduction. The approximate amounts of total sugar chains liberated from 1 mol each of acid phosphatase and alpha-glucosidase were 6 and 4 mol, respectively. Paper electrophoresis revealed that only neutral oligosaccharides were obtained from both enzymes. The oligosaccharide fraction from acid phosphatase was separated into seven components by Bio-Gel P-4 column chromatography while that from alpha-glucosidase was resolved into three components. The structures of these oligosaccharides were determined by sequential glycosidase digestion in combination with methylation analysis. The sugar chains of the two enzymes can be primarily classified as high mannose-type oligosaccharides. However, they have the following characteristic features: 1) their common core is not the usual Man5 . GlcNAc2 structure, it is Man3 . GlcNAc2; 2) some of the sugar chains of acid phosphatase have 1 approximately 3 glucose residues linked to the nonreducing terminal Man alpha 1----2 residue. The structural characteristics of the sugar moieties of the two enzymes indicate that they might be produced by the so-called "alternate pathway," in which lipid-linked Glc3 . Man5 . GlcNAc2 functions as an oligosaccharide donor.
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PMID:Carbohydrates of lysosomal enzymes secreted by Tetrahymena pyriformis. 293 44

Procedures have been validated for the investigation of the physical properties of canine microvillar membrane proteins by SDS-polyacrylamide gel electrophoresis. These have been used to examine mucosal samples from eight control dogs and from five dogs with naturally occurring exocrine pancreatic insufficiency (EPI) in order to evaluate the potential role of the pancreas in the normal turnover of microvillar membrane proteins in the dog. Gel scanning showed that the proportion of total membrane protein in bands corresponding to a molecular mass greater than 200 kDa was up to 20-times higher in dogs with EPI than in control dogs. In particular, a band of apparent molecular mass 218 kDa represented between 8 and 28% of membrane protein in all affected dogs, compared with only 0.5 to 1.8% in controls, and is most likely to contain single chains of both pro-maltase-glucoamylase and pro-sucrase-isomaltase. Incubation of microvillar membranes in vitro with either trypsin or canine pancreatic juice resulted in degradation of this high molecular mass band and a corresponding increase in the amount of protein in three bands representing molecular masses of 150, 133 and 106 kDa. In samples from control dogs aminopeptidase N was identified in the 133 kDa band by Western blotting and incubation with monospecific antiserum. These findings suggest that pancreatic enzymes play a major role in the normal post-translational processing of intestinal microvillar membrane proteins in the dog.
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PMID:Investigation of the physical properties of dog intestinal microvillar membrane proteins by polyacrylamide gel electrophoresis: a comparison between normal dogs and dogs with exocrine pancreatic insufficiency. 340 88

1. Highly purified preparations of glucoamylase were obtained from liver, spleen and intestine of the monkey. The enrichment factor was lower for intestine (60-fold) compared with that of liver (1200-fold) and of spleen (2000-fold) but the final specific activities were of a similar magnitude. 2. The liver and spleen enzymes had maximum activity at pH4.8 whereas the intestinal enzyme showed an optimum at pH5.8. The K(m) values for both starch and maltose with spleen and liver enzymes were higher than for the intestinal enzyme. With the intestinal enzyme, the V(max.) values were higher for both starch and maltose than those of the spleen and liver enzymes. 3. Gel filtration on Sephadex G-200 under identical conditions revealed that liver and spleen enzymes emerge from the columns much later than the intestinal enzyme. 4. Evidence is presented that the glucoamylase activity of the intestinal mucosa is exhibited by the maltase II fraction. 5. Tris, pentaerythritol and turanose inhibited glucoamylase from all the three tissues, but turanose inhibited the spleen and liver enzymes to a higher degree than the intestinal enzyme.
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PMID:Studies on mammalian glucoamylases with special reference to monkey intestinal glucoamylase. 498 41

Acid alpha-glucosidase has been purified from human placenta to a specific activity of approximately 6800, (4-methylumbelliferyl-alpha-D-glucoside as a substrate) or 55,400 mumol g-1 min-1 (glycogen or maltose as substrate). The purified enzyme gives rise to multiple protein bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), i.e., a major doublet of 82K and 69K , a minor doublet of 25K and 21K , and a faint band of 100K. All of the molecular weight species stained as glycoproteins with an intensity apparently proportional to their protein content, and were present in enzyme from individuals homozygous for the allozyme alpha-Glu 1. Isoelectric focusing revealed only enzymatically active proteins which, when analysed by SDS-PAGE, gave rise to multiple molecular weight species. Chromatography of I125-labeled, purified enzyme on Bio-Gel P-100 revealed only a radiolabeled, high-molecular-weight species which corresponded with enzyme activity. These findings suggest that, in the native state, the mature enzyme exists as a high-molecular-weight species, which is dissociable in SDS to several low-molecular-weight species. These results are consistent with reports that a 100K primary product of translation is post-translationally modified to yield polypeptides of lower molecular weights, and that all of the molecular species are absent in cells genetically deficient for acid alpha-glucosidase. The possibility that the low-molecular-weight (20- 25K ) protein bands in SDS-gels corresponded to a previously reported low-molecular-weight species generated by treatment with guanidine-HCl was investigated. The I125-labeled, purified acid maltase was dissociated by guanidine into two equal peaks of approximately 64K and 28K molecular weight. Surprisingly, both peaks, when analyzed on SDS-gels, yielded identical and equally intensely staining bands of 64K molecular weight. These results suggest that the mature acid alpha-glucosidase is made up of polypeptides which are bonded in the native state by at least two different types of interaction, one type which is dissociable in SDS and one type which is dissociable in guanidine but not in SDS. The nature and possible function of the 25K polypeptide generated only by guanidine-HCl remains to be determined.
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PMID:Further studies of the structure of human placental acid alpha-glucosidase. 642 17

alpha-Glucosidase was extracted from a homogenate of human kidney, initially with 0.02 M Tris-HCl buffer, pH 7.6, and subsequently with a mixture of 0.5% cholate and 0.5% Triton X-100 in the same buffer, pH 7.6. The enzyme in each of these two fractions was purified to the electrophoretically pure state by fractional precipitation with ammonium sulfate, column chromatographies on DEAE-cellulose, hydroxyapatite, Bio Gel A-1.5 m and affinity chromatography on heated glutinous rice. The two purified alpha-glucosidase preparations obtained were the same in enzymatic and proteochemical properties, and the molecular weight and isoelectric point estimated were 3 x 10(5) and 4.2, respectively. No evidence for subunit structure was obtained. The optimum pH for activity was 5.6 and the activity was drastically inhibited by Nojirimycin. The alpha-glucosidase readily hydrolyzed maltose, starch, and glycogen, producing only glucose. It hydrolyzed maltotriitol to split the non-reducing end glucose, but scarcely hydrolyzed maltitol or various other heteroglucosides examined. All these proteochemical and enzymatic properties of kidney alpha-glucosidase were the same as those of urine F-1 alpha-glucosidase. Also, kidney tissue alpha-glucosidase produced a clear precipitin line with antisera against urine F-1 alpha-glucosidase. These facts suggest that F-1 alpha-glucosidase in urine originates from kidney tissue.
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PMID:Identity of alpha-glucosidase of human kidney with urine F-1 alpha-glucosidase. 680 53

The synthesis of 3-nitro-4-(6-aminohexylamido)phenylboronic acid is described. The properties of two novel forms of immobilized phenylboronate agarose adsorbents [m-aminophenylboronic acid-Matrex Gel and 3-nitro-4-(6-aminohexylamido)phenylboronic acid-Sepharose CL-6B] were investigated. Both gels bind and selectively retard the glycoprotein alpha-glucosidase from yeast. The retardation is affected by following parameters: (i) pH, (ii) presence of sugar, (iii) concentration of sugar and (iv) buffer species (especially triethanolamine). Five sugars were studied, namely sorbitol, fructose, ribose, glucose and maltose. The concentration of sugar required to produce significant retardation increased in the above order, whereas the ability of sugar to form a complex with boron decreases in the same order. These effects were observed with crude as well as pure enzyme. Since alpha-glucosidase is a glycoprotein, it is proposed that this protein is mainly bound to these immobilized phenylboronates via sugar (glyco) residues. Displacement of the enzyme from the column is effected by the sugar in the buffer (or in a preincubation mixture). However, the marked pH-dependence (this retardation effect could only be observed at pH 7.4) suggests that these results are not due solely to hydrophobic or ionic mechanisms and are more complex than simple sugar-phenylboronic acid interactions.
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PMID:Affinity chromatography of yeast alpha-glucosidase using ligand-mediated chromatography on immobilized phenylboronic acids. 703 22

The 6-O-butanoyl derivative of castanospermine (MDL 28,574) was previously shown to be approximately 30-fold more potent than the naturally occurring molecule at inhibiting the replication of human immunodeficiency virus (HIV) (D. L. Taylor, P. S. Sunkara, P. S. Liu, M. S. Kang, T. L. Bowlin, and A. S. Tyms, AIDS 5:693-698, 1991). We now report that consistent with its improved anti-HIV activity, MDL 28,574 is more effective (50% inhibitory concentration [IC50], 20 microM) than the parent molecule (IC50, 254 microM) at causing the accumulation of glucosylated oligosaccharides in HIV-infected cells by inhibition of glycoprotein processing. These were predominantly of the glucose 3 type, as determined by P4 Bio-Gel analysis after digestion with purified alpha-glucosidase I, indicating that, intracellularly, this enzyme is the major target for inhibition. MDL 28,574, however, was less active (IC50, 1.27 microM) than castanospermine (IC50, 0.12 microM) against the mutual target enzyme, cellular alpha-glucosidase I, in a cell-free assay system. The increased effects of MDL 28,574 against alpha-glucosidase I in cell culture were attributed to the improved cellular uptake of the more lipophilic derivative. Inhibition of this enzyme activity in HIV-infected H9 cells impaired viral glycoprotein processing and resulted in the expression of abnormally configured gp120. This did not affect virus production, but the virions had decreased infectivity which was partially related to a reduced ability to bind to CD4+ T cells.
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PMID:Inhibition of alpha-glucosidase I of the glycoprotein-processing enzymes by 6-O-butanoyl castanospermine (MDL 28,574) and its consequences in human immunodeficiency virus-infected T cells. 798 8

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